Electric toaster



Pll 49 l950 w. H. KITTo 2,502,655

ELECTRIC ToAsTER Filed may 17, 1947 2 Sheets-Sheet l INVENTOR.A Fig. 2 William H. Kitt@ BY 5 M( ATTORNEY.

prl 4, E950 w. H. KITTO Y ELECTRIC ToAsTER 2 Sheets-Sheet 2 Filed May 17, 1947 Fig. 3

INVENTOR. William H. Kito ATTORNEY.

Patented Apr. 4, 1950,

ELECTRIC TOASTER i William H. Kitto, Chicago, Ill., assignor to The Hoover Company, North Canton, Ohio, a corporation of Ohio Application May 17, 1947, Serial No. 748,729

12 Claims. (Cl. 99-329) The present invention relates to electric bread toasters although the toaster may be used for heating or toasting various forms of comestibles. More particularly, the present invention discloses closure means and/or slot covers for a toaster in combination with a thermal timing mechanism adapted for timing the duration of a toasting interval either with the toaster slot covers in position or with the toaster slots uncovered. The present invention is an improvement over the thermal timing mechanism for timing the duration of the toasting interval as disclosed and claimed in a copending U. S. application, Ser. No. 725,556 of Eugene L. Snyder et al., tiled January 31, 1947 and which is assigned to a common assignee, The Hoover Company, a corporation oi Chio.

According to the present invention, the various diiculties with regard to thermal timers and other faults encountered have been remedied :by providing a thermal timer in which the toasting operation is not terminated until the thermal timing element has cooled to a predetermined temperature. This will always assure that the thermal timing element is at its proper temperature at the beginning of each toasting operation which is found particularly advantageous in toasting devices wherein the cooking and/or baking chamber or toasting chamber is coveted in order to reduce the toasting period wherein the bread, for example, is toasted more uniformly, the resulting toast retaining more moisture.

In accordance with this invention the thermal timing element is heated by an auxiliary electrical heater energized simultaneously with the oven heater and then cooled to perform the timing function. When the thermal timing element reaches a pre-determined temperature it deenergizes the auxiliary heater and then cools to a. pre-determined lower temperature whereupon it opens the main switch to de-energize the toaster and to release the toast carriage for` movement to toast ejecting position. If soft toast is desired the slots are closed and the thermal timing element operates exactly as above described, however, an auxiliary mechanism,

prevents complete upward movement of the toast carriage until the operator uncovers the toast slots in the cover shell.

In accordance with this invention theauxiliary heater is moved toward and away from the thermal timing element depending upon whether the toaster slots are closed or opened, respectively. In either condition of the toast slots, variation in the timing period is accomplished by means of a rheostat which controls the heating rate of the auxiliary heater. The time required for the thermal element to cool after it has de-energized the auxiliary heater is unaffected by the rheostat adjusting mechanism hence the toasting interval is varied solely by varying the heating period of the thermal element.

Another important feature of this invention is the construction of the thermal timer itself. According to this invention, the preferred thermal timer includes a bimetallic strip supported at its ends on a pivoted member so that movement of the bimetal imparts movement to the pivoted member in one direction to 'actuate a switch for the auxiliary heater and in the reverse direction to deenergize the main heaters and to release the toast carriage.

It is within the purview of the invention to utilize the auxiliary holding mechanism to re.

tain bread carriers in warming position even though slot covers are not utilized in connection with the toast slots in the cover shell.

According to another feature of this invention, partitions are provided dividing the toaster into a central toasting chamber, front and rear mechanism compartments and a bottom mechanism compartment. A plurality of latches are provided in the -front mechanism compartment for holding the carriage in toasting position or warming position according to the setting of the control mechanism. The thermal timer and slot cover control are positioned in the rear mechanism compartment, and motion transmitting means are positioned in the bottom compartment -for transmitting motion from the timer and closure controls to the latches which retain the toast carriage in lower toasting and warming position.

It is therefore a principal object of this invention to provide a toaster with a slot cover and/or closure means for a toasting chamber thereof which may-.be operated -With the slot cover either opened or closed, means to speed up the timing mechanism for the toaster when the slot cover is closed, means to open the main heating circuit at the end of the toasting period and hold the toast in the toaster until the slot cover and/or covers are opened and releasing means whereby when the slot covers are opened the toast carriage is automatically released.

Other objects and advantages of this invention will become apparent as the description proceeds or taken in connection with the accompanying drawings, in which: l

Figure l is a cross sectional view of the toaster showing the timing mechanism according to this invention in conjunction with a closure mechof the toasterof Figure 1 taken along line 3-3 looking in the direction of the arrows;

Figure 4 is a side elevation, partly in section, taken along line 4-4 of Figure 1 looking in the direction of the arrows illustrating the means to vary the timing mechanism of the toaster in the open and closed position of the closure means;

Figure 5 is a partial side elevation taken along lines corresponding to line 4-4 of the Figure 1 of a modification of the invention wherein the slot covers have an arcuate movement moving from open to closed position;

Figure 6 is a front elevation of the embodiment of Figure 5; and,

Figure 'l is a wiring diagram for the various embodiments of the toaster constructed according to this invention.

Y the arms 28 to their upper position and accord- Referring to the drawings, the toaster forml ing the preferred embodiment of the invention is provided with a plastic base I0 with a cover and/or appearance housing II mounted thereon to cover the mechanism and toasting compartment. The appearance housing II is provided with two toast receiving openings l2, one of which is shown in Figure '1.

A base plate I3 is mounted on the base I0 and forms a support for the entire mechanism withinthe appearance housing II.

Partitions I4 and I5 divide the toaster into a toasting chamber I6, iront mechanism compartment I1 and rear mechanism compartment I8. The base plate I3 separates the toasting chamber I6 from a lower mechanism compartment I9.

Rigidly mounted upon an upwardly extending portion 28 of the base plate I3 are a pair of guide posts 2|, one of which is shown in Figure 1 and rigidly attached to the partitions I5, Figure 1, by means of a bracket 22. The posts 2| form guides for a vertically reciprocating supporting plate 23 by means of a plurality oi' rollers as is well known in the art, which are shown at 24, Figure 3.

Rigidly attached to the bottom end of the supporting plate 23 are a pair of bread carriers 25, as shown in Figure 2. In order to manually reciprocate the supporting plate 23 and bread carriers 25 in upward and downward direction, a U-shaped lever is provided, arms 26 of which are shown in Figures 1 and 2. At their rear ends, the arms 26 which extend through slots 26' in the member I5, Figure 3, are pivoted to the toasting chamber wall I4 as shown at 21 on projections struck out from the wall I4 as shown in Figure 2, and at their front ends are extended forwardly as at 28 so as to extend through a slot 29 in the appearance housing I I. Secured to the extending portions 28 of the arms 26 is a manipulating handle 30 by which the toast carrier 25 may be moved downwardly to toasting position. At the opposite end of the toaster from the manipulating handle 30 is a second handle 3I secured to the appearance housing I I. When the toast carriers are in their upper position, the handles 30 and 3l may be utilized for carrying the toaster from place to place.

The bracket 22 is extended forwardly to form a hook 32 which forms the upper anchorage for a tension spring 33 which is secured at its lower end to a hook 34 on the extending portions 28 of the arms 26. The arms 26 are secured to the supporting plate 23 by means of links 35 pivoted at their ends to the arms 26 and at their lower ends to lugs 36 which are bent backwardly from the supporting plate 23.

Normally, the tension spring 33 spring-biases ingly also spring-biases the bread carriers 26 and supporting plate 23 to their upward position.

In order to hold the bread carriers 25 in their lower toasting position, a latch 31 is pivoted on a pintle 38 mounted in lugs 38 aiiixed to the underneath of the portion 20 of the base plate I3, as shown in Figure 3. At its upper end, the latch 31 has a hook 39 which cooperates with a U-shaped member 40 extending forwardly from the supporting plate 23 to hold the supporting plate 23 in downward position. The latch is provided with a cam surface 4I which cooperates with the portion 42 of the lug 40 to move the latch 31 'counter-clockwise against the bias of the spring 43 when the supporting plate 23 is moved to its downward position. When the hook 39 passes the portion 42 of the lug 40, the spring 43 projects the hook 39 above the portion 42 of the lug 40. In order to hold the latch 31 in a position so that the cam surface 4I will cooperate with the lugs 42, a stop 44 is provided which coacts with the plate 20 to hold the latch 31 in a substantially vertical position.

Below its pivot, the latch 31 is provided with an impact end 45 which cooperates with a reciprocating rod 46 mounted upon the bottom plate I3 by means of lugs 41, 48, and 49 so as to lie in the bottom mechanism compartment I9. A spring 50 coacts with a collar 5I and the projection 48 to normally spring-bias the actuating rod 46 toward the left so as to be out-oi-contact with the impact end 45 of the latch 31 unless positively held in that position.

The timing mechanism generally indicated by the reference numeral 52, comprises a frame 53 pivotally mounted on a pintle 54 aflixed in lugs 55 struck rearwardly from the partition I4. A spring 56 biases the 'frame 53 so that its impact end 51 presses against the rod 46 to hold the front end of the rod 46 against the impact end 45 of latch 31 in opposition to the bias of the spring 50 but with insuiiicient force to overcome the force of the spring 43 and the frictional force holding the latch 31 in latching position.

A bimetallic strip 58 is supported at its ends between an abutment 59 at the lower end of the frame 53 and an abutment 6U near its pivot point 54. The abutment 60 is mounted on the end of a U-shaped bimetallic strip 6I secured to the frame 53 by a rivet or other suitable securing means. A

screw 62 is threaded through a bracket 63 secured to the upper end 64 of the frame 53 and is adapted to be adjusted to apply more or less'pressure to the end of the bimetallic strip 58 and constitutes a factory adjustment. The purpose of the U-shaped bimetallic strip 6I will be described in more detail hereinafter.

The central portion of the bimetallic strip 58 is secured to the partition I4 by means of a link so that the central portion of the bimetallic strip is substantially immovable relative to the pivot point 54 of the frame 53. Pivotally mounted on the pintle 65 on lugs 66 struck downwardly from the base plate I3 is a bracket 61 which carries a reflector 68. The ends of the reflector 68 are turned forwardly as shown at 69 and support an auxiliary heating coil 10. The bracket 61, reflector 68 and the heating coil 16 normally lie substantially in parallel relationship to the bimetallic strip 58 and are adapted to be moved toward and away from the bimetallic strip 58 depending upon whether a closure member 1I is in its downward position as shown in Figures 1 to 4, inclusive, or in its raised position. Ihe closure member 1I is pivotally mounted for movement from its closed position as shown in Figure 1 to its raised position through hinged members 12 extending through slots in the partition I4. Figures 2 and 4. and journaled on a hinge pin 13 through tubular members 14 afllxed to the hinge members 12. The hinge pin 13 is mounted on projections 15 struck from a supporting member 16 which is suitably amxed to the partition I4. The closure 1| for the toaster slots I2 is springbiased in its raised and lowered position through springs 11 mounted at their upper ends on lugs 18 affixed to the hinge members 12 and at their lower ends affixed to lugs 19 which are affixed to the shell II.

The manually operated closure 1| adjusts the position of the reflector 68 and auxiliary heater with respect to the bimetallic strip 58 moving the auxiliary heater and reflector toward the bimetallic strip when the closure member is down closing the toaster slots I2 and away from the bimetallic strip 58 when the closure member 1I is in its raised position. A rod 8| bears on an eccentric 82, Figures 2 and 3. afiixed to the tubular member 14. The lower end of rod 8| is pivotally connected to a laterally extending projection 83 formed integral with the bracket 61. The rod 8| permitting the toasting carriages to pop the toast upwardly under the action of the spring 33.

With the cover 1| in its raised position preferably when it is desired to make crisp or dry toast and/or to lengthen the toasting period, the latch 9| is moved counter-clockwise and out-cf-engagement with the portion 42 of the toast carriage mechanism so that as the manipulating handle is moved downwardly, the portion 42 only is slidably mounted vertically in a lug 84 aflixed A- to the partition |4 at its upper end contiguous to the concentric cam 82 and is slidably mounted in a hole 85 in the base plate I3 through which the rod 8| extends. The lower end 86 of the rod 8| engages a releasing lever 81 pivotally mounted in chamber I9 upon a downwardly extending bracket 88 and having an upturned end 89, Figures 1 to 3, which engages a lug 90 of a latch 9|. The latch 9| is pivotally mounted on the pintle 38 similarly as the latch 31 and is spring-biased by a torsion spring 92. The latch 9| is provided with a hook 93 adapted to engage the portion 42 of the U-shaped member 40 substantially in the same manner as the hook 39 of the latch 31. The hook portion 93 is also provided with a camshaped surface 94 and also with a stop 95 adapted to engage the member 20 similarly as the stop 44 of the latch 31.

Referring to Figure 1, with the closure 1| in its lowered position, the release mechanism actuated by the closure member 1| is in the position as shown in Figure l. When the operator `moves the manipulating handle from the dotted position to the solid position as shown, the portion 42 engages the cam surface 94 first and as the handle continues to move downwardly the portion 42 then engages the cam surface 4| respectively of the levers 9| and 31. These levers pivot 'counter-clockwise against the bias of the springs 92 and 43, and with the handle 30 latched in the position shown beneath the hook 39, the bread carriages are latched in their lower toasting position. The latch 31 may then only be released through the actuation of the timing mechanism to be described later and being released permits the toasting carriage to rise upwardly until the portion 42 engages the hook 93 of the latch 9|. Upon raising the closure member 1| to its vertical position actuates the rod 8| downwardly through the cam 82 causing the lower end 86 of the rod to engage the lever 81 moving the upturned end 89 upwardly against the lug 90 which moves the lever 9| counterclockwise against the bias of the spring 92 unlatching the toasting carriages 25 since the hook 94 of the latch is disengaged from the portion 42 l shell II.

engages the latch 31 latching the toasting carriage in its toasting position to be subsequently released at the end of a toasting interval by the timing mechanism. Also, as the closure member 1| is maintained in the raised position thereof, the timing mechanism comprising the reflector 99 and auxiliary heater 10 is pivoted in a counterclockwise direction away from the bimetallic strip 58 increasing the toasting interval whereas with the closure member 1I in its lowered position, as shown in Figure l, forming a closure for the toast receiving opening |2 causes the timing mechanism comprising the reflector 68 and auxiliary heater 10 to be spring-biased in a clockwise direction by a torsion spring 96 always biasing the rod 8| upwardly so that its upper end is always in operative engagement with the cam 82.

Referring to Figures 5 and 6 another embodiment of the invention is shown in which the closure member 1| has been substituted by separate pivotal covers 91 and 98 to provide closure means for toasting slots I2. The covers 91 and 98 are adapted to be moved toward and away from each other for closing and opening the toasting slots I2, as illustrated in Figure 5. The closures 91 and 98 may be preferably formed integrally with downturned lever arms 99 and |00 formed onY opposite ends of closure members 91 and 98 and pivotally mounted for limited arcuate movement as at IOI on opposite ends of the toasting The closure members 91 and 98 are normally spring-biased together by a tension spring |02 affixed to the levers 99 and |00 by lhooks |03.

A manipulating handle |04 is journaled in the toaster shell I I on a rod |05 aixed to one end oi the handle |04 and having alxed at the opposite end a laterally extending cam-shaped lever |06 adapted to engage complementally formed camshaped surfaces |01 and |08 formed respectively on the levers 99 and |00. Also affixed to the rod |05 is a cam |09 operatively engaging a vertically mounted rod I|0 mounted for vertical movement in a projection affixed to the inside of the toaster shell II, as shown in Figure 6. vThe rod I I0 corresponds to the rod 8| of the preferred toaster embodiment of Figures 1 to 4, inclusive. The rod I I0 is also connected to the release lever 81 and to the bracket 61 for actuating the reilector 68 and auxiliary heater 10 toward and away from the bimetallic strip 58 in the same manner as is the lever 8| of the preferred embodiment of the toaster shown in Figures l to 4 and therefore need not be further described.

When. the manipulating handle |04 is rotated to a horizontal position the cam |08 engages cam surfaces |01 and |08 which rotates the slot covers to the open position shown in Figure 5, simultaneously the cam |09 depresses the rod I I0 against the bias of the torsion spring 96 which also tends to shift the heater and reflector assembly toward the bimetallic thermostat. When the rod ||0 is depressed the lever 81 is rocked on its pivot sufficiently to disengage the latch 9| from the toast carriage latching element 42. As the rod ||0 is depressed it also rocks the heater-reflector assembly in a direction to move away from the bimetallic thermostat so as to increase the duration of toasting periods. is rotated to its vertical position the cam |06 is disengaged from the slot covers 91--98 which are then moved to their closed positions by retaining the spring |02 and the cam |09 is rotated so as to remove its high part from contact with rod I I which then rises and permits the heater-reflector assembly to approach the bimetallic theremostat and the rod 81 to rock suflciently to bring the latch 9| into latching position with respect to the toast carriage.

Referring to Figures 3 and 7, main heating elements I I2 are spaced on each side of the toast racks 25 within the toasting chamber I6. A main switch II3 is closed by movement of the supporting plate 23 downwardly upon movement of the manipulating handle 30 from the dotted position as shown in Figure 1 to the solid position. Contacts I|4 connected together are mounted on a bracket ||5 and insulated therefrom, the bracket |I5 being aflixed to the supporting plate 23 for vertical movement. Complementally formed contacts IIS and II1 are mounted on the portion 20 of the base plate I3 and insulated therefrom and adapted to be engaged by the' contacts I I4. The contact I I6 is connected to the line side as shown in Figure 7 whereas contact II1 is connected to the load side of the toastercircuit, Figure 7. It is therefore obvious that the main switch ||3 is closed as the contacts I I4 engage complementally formed contacts IIS and III when the support 23 of the carriers 25 are moved to toasting position so as to energize the main heaters II2. The switch II3 opens automatically when the latch 31 is unlatched permitting the upward movement of the supporting plate 23 and the discharge of the toast through the slots I2 as the toaster is operated with the slots I2 unclosed or as the latch 31 is unlatched by the timing mechanism with the closures for the toasting slots I2 in either of the embodiments disclosed which permits movement of the supporting plate 23 so that the portion 42 engages the latch hook 93 of the latch 9| disconnecting the heating elements I I2 from the line at the end of the toasting cycle, and nal release of the toasting carriages 25 upwardly to discharge the toast through the slots l2 is accomplished upon the closure members for the toasting slots I2 being opened which permits release of the latch 9| from the portion 42, as previously described.

An auxiliary normally open micro-switch II8 is connected in series with the secondary heater 10 and a rheostat |I9, and these elements are parallel connected with the main heaters II2. The switch I|8 is closed to energize the auxiliary heater 10 by the upper end 64 of the frame 53 when in the position shown in Figure 1. When the end 64 moves to the right or in the clockwise direction as viewed in Figure 1, the switch I I 8 will open automatically to deenergize the auxiliary heater 10. The micro-switch |I8 in each .of the modifications is supported from the supporting member 16.

Referring to Figure 7, it will be apparent that the main heaters II2 will be energized when the switch I|3 is closed by the contacts ||4 engaging the contacts IIS and II1. The auxiliary heater 10 is controlled by the normally open circuit micro-switch II8 which is in series with the main switch |I3. In both embodiments of the invention variation in toasting time is accomplished by adjustment of rheostat IIS regardless When the handle A|04 8 of the condition o1' the toast slot closure means. The rheostat II 9, Figures 1 to 7, is adjusted by a control knob |20 journalled on the plastic base I0 of the toaster.

The operation of each embodiment of the invention utilizing the electrical circuit of Figure 7 will now be described. The operation of the toasting mechanism of Figures 1 to 4 and 'I is as follows: Assuming that the toaster is cold and the operator desires dark toast, slot cover 1| is raised to open position. Movement of the slot cover 1I to open position actuates the rod 8| through the cam 82 to shift the auxiliary heater 10 and reilector 68 away from the bimetallic strip 58. The rod 8| also actuates the arm 01 to rock the latch SI to inoperative position in which it can not engage the toast carriage. The rheostat I I9 is then adjusted so that a minimum quantity of current is supplied to the auxiliary heater thus assuring a maximum timing interval.

At this time, the bread carriers will be held In their upper bread receiving position by the spring 33. Bread slices will be inserted through the openings I2 so as to rest on the carriers 25. The handle 30 will then be grasped and moved to its lowermost position which will move the bread carriers to toasting position. The cam surface 4I on the latch 31 will be contacted by the portion 42 of the loop 40 carried by the support 23 which will cause the latch 31 to move to counterclockwise position, as viewed in Figure 1, against the bias of its spring 43. When the part 42 passes the edge of the hook 39, the latch will snap to the position shown in Figure 1 under the bias of the spring 43 so that the hook 39 will overlie the part 42 and latch the carriers in toasting position.

At this time, the bimetallic strip 53 will be cooled and bowed away from the frame 53, as shown by full lines of Figure 1, so as to permit the spring 56 to hold the frame 53 against the end of the rod 46 and press the rod against the end 45 of the latch 31 in opposition to the bias of the spring 50. The end 64 of the lever 53 will also be operable to close the switch IIB.

Movement of the carrier 25 to toasting position will cause the switch II3, Figure 7, to close which accordingly will simultaneously energize tige main heaters II2 and the auxiliary heater At this time, the entire toaster is cold as is the timer 52. The heat from the heaters I I2 and the auxiliary heater 10 will gradually increase the temperature of the toaster as a whole as well as the temperature of the timer 52 until the toasting chamber I 6 reaches a toasting temperature and the toasting operation will begin. Heat which is radiated directly from the heater 10 to the bimetallic strip 58 and also reflected thereto by the reflector 68 will gradually increase the temperature of the bimetallic strip 58 so that it will tend to straighten. Since the central por tion of the strip 58 is substantially fixed by the link relative to the pivot 54, the straightening of the bimetallic strip 58 will cause the frame 53 to move gradually in a clockwise direction, as viewed in Figure 1. This will cause its impact end 51 to move to the left and will also permit the rod 46 to move to the left under the bias of the spring 50 until the bimetallic strip assumes a substantially straight position but it will snap the frame 53 across its dead center position to the dotted line position shown in Figure 1 which will move the impact end 51 of the frame 53 out-of-contact with the end of the rod 45.

Since the thermostat 8| is cold at the start oi' a toasting operation it applies a comparatively small compressive force to the end of the bimetal 58 consequently the bimetal 58 snaps over center at a lower temperature than would be the case if the bimetallic element were warm and applied a greater compressive force to the bimetal Movement of the frame 53 past its dead center position to the position shown in the dotted lines of Figure 1 will cause the end 64 to move away from the switch i i8 so that the switch l I8 automatically opens and deenergizes the auxiliary heater 10 so as to permit the bimetallic strip 58 to cool.

As the bimetallic strip 58 cools, it will again tend to straighten from the dotted position shown in Figure 1 so as to move the frame 53 in a counter-clockwise direction. This will continue until the frame 53 moves back to its dead center position at which time the combined action of the bimetallic strip 58 and the spring 56 will quickly snap the frame 53 to its full line-position shown in Figure 1. This will cause the impact end 5l to contact the end of the rod 48 with a sort oi hammer blow forcing the rod to the right. The right hand end of rod 46 will contact the impact end 45 of the latch 3l also with a hammer blow of suicient force to move the latch 3l in a counter-clockwise direction as viewed in Figure 1 and move the hook 39 away from above the portion 42 of the lug 48. This will permit the spring 33 to move to the support 23 and the carriers 25 to their uppermost position. This will cause the contacts ||4 of the switch H3 to move out-of-contact with the contacts IIB and lil automatically opening the switch 3 and deenergizing the main heaters ||2 to end the toasting interval.

When the portion 42 oi the lug 48 clears the hook 39 of the latch 8l, the spring 43 will move the latch 31 in a clockwise direction as viewed in Figure l to the position shown in Figure 1 where the stop 44 is in contact with the end 20 of the plate i3. The rod 45 will move to the left under the bias of the spring 50 and accordingly move the frame 53 slightly to the left of the position shown in Figure 1 against the force of the spring 55 placing the mechanism in condition for the next succeeding toasting operation.

Since the bimetallic strip 58 was cooled to a predetermined low temperature before the toasting period was ended, it will be in a fairly cool condition ready for the next succeeding toasting operation. It has been found that thermal timers i have a tendency to over-.compensate due to the heat stored in them;y but, since the U-shaped bimetallic strip 6| is also hotter than when the toaster is operated from cold position, it applies a greater compressive force to the thermostat 58 so that it must be heated to a higher temperature to snap over center to deenergize the heater 78. In this way the thermostat 5| counteracts the over-compensating characteristic of the thermostat 58 and provides proper timing control of the mechanism.

If now the operator desires a second cooking operation, bread slices are again inserted through the opening l2 as before and the manipulating knob 30 moved to downward position. The device will operate as before except that in this case the toasting chambers are substantially in toasting temperature and immediately the main switch ||3 is closed, the toasting operation will begin. Since the bimetallic strip 58, the auxili- 10 ary heater 10, and the reflector 88 are also hotter than when the toaster was initially operated, it will take less time for the bimetallic strip to move past its dead center position to the dotted position o! Figure 1 so as to deenergize the auxiliary heater 10. Thus the time for heating up the bimetallic strip to a predetermined high temperature will be less for the second operation than for the first, but the time for its movement from the dotted line position of Figure 1 will be substantially the same as before. Thus, the only variant is the time it takes to heat up the bimetallic strip 58 so that it ywill snap to its dotted line position oi Figure 1.

If the operator desires lighter toast, he moves the manipulating knob |28 of the rheostat H9 counter-clockwise as shown in Figure 7 reducing the resistance of the secondary heater circuit to increase the flow of current through the secondary heater in order to decrease the time it takes to heat the bimetallic strip 58 to its predetermined high temperature. Again, the only variant in adjusting for light, medium, or dark toast is the time it takes to heat the bimetallic strip 58 from its cold to its hot position since the time it takes the bimetallic strip 58 to cool is substantially the same for all adjustments of the control knob |20 of the rheostat H9.

Toast cycle with slots uncovered In this cycle, the handle 30 is pushed down and latched by the primary latch 37. The switch, Figure '7, is closed causing the main heaters ||2 and the secondary heater 10 to be energized. The cam 82 of the preferred embodiment, Figures 1 to 4, inclusive, rides on the rod 8| so that the secondary heater 10 is at the maximum position toward the left in Figure 1. The toasting cycle is therefore longer when the slots are uncovered and/or the closure means are opened because a longer time is required to toast the bread when that condition exists. When the auxiliary heater 10 has been on for a sufcient length of time to heat the bimetallic strip 58, it moves in the manner previously described above in detail for the actuation of the complete timing mechanism 52 and the impact end 51 moves to the left as shown in the dotted line of Figure 1. When this happens, the micro-switch H8 operates deenergizing the secondary heater 10 allowing the bimetallic strip 58 to cool ofi'. When the bimetallic strip cools beyond a certain point, a snap action occurs causing the member 51 to strike the reciprocating rod 46 which in turn moves the latch 31 releasing the carriages 25. The length of the toasting cycle is controlled by the rheostat ||9 through the control knob |28. When the toaster is operated with the slot covers and/or closure member 1| opened, the cam 82 is in such a position that the rod 8| and, in the modification of Figure 5, the rod ||8 moves the latch 9| back allowing the toaster carriage to be released, when the toaster timer mechanism 52 has completed its operation.

The operation of the form of the invention of Figures 5 and 6 with the slot covers in open position is identical with that described above with respect to Figures 1 to 4 except in the following particulars. In this form of the invention the handle |84 is rotated to actuate the slot covers 91 and 98 to open position and to operate the rod I|0 which shifts the heater-reector mechanism away from the thermostat and disengages the latch 9| in the same manner in which these 11 functions are performed by the rod 8| in the form o f the invention of Figures 1 to 4. In all other respects the operation is the same for the two forms of the invention.

When it is desired to operate the toaster with the slots covered to make soft toast the cover 1| is manually moved to closed position in the form of the invention shown in Figures 1 to 4 or the handle |04 is moved to vertical position in the form of the invention illustrated in Figures 5 and 6. This action rotates the cam 82 and |09 to permit the rods 8| and ||0 respectively to move upwardly under the bias of spring 96 in both forms of the invention. When this happens the latch 9| is permitted to move to operative position to engage the keeper 42 on the toast carriage and the spring 96 is permitted to shift the heater-reflector assembly toward the bimetallic thermostatic element which tends to shorten up the toasting intervals.

In either of these embodiments with the toaster operating with the toaster slots |2 covered, the carriage 25 moves upwardly upon release of the latch 31 through the timing mechanism 52 a sufllcient distance to open the main switch H3 and turn off both the main heater ||2 and secondary heater 10. Beyond this point, however, the carriage 25 is halted by the upper latch 9| thus preventing crushing of the toast between the rising carriage and the closed slot covers. The toast will remain in the toaster and be kept warm for a reasonable period. When it is desired to remove the toast, the operator opens the slot covers as previously described for each of the embodiments of the invention thus releasing the upper latch 9| which permits the toast to pop up.

It is also Within the scope of the invention that the mechanism of the modiiication of the invention as shown in Figures 5 and 6 particularly with respect to the manipulating handle |04 and the cam |09 in conjunction with the rod I0 and the timing mechanism 52 of the invention may be used without the slot covers 91 and 98 for the toaster slots I2. When used in this manner with the handle |04 in a vertical position, the latch 9| is positioned as in Figurev 1 so that upon release of the latch 31, the toaster carriage 25 will remain in its lowered position after the completion of the toasting cycle maintaining the toast in a warmed condition until it is ready to be eaten whereupon the control handle |04 may be moved to the horizontal position shown in Figure 6 releasing the latch 9| and ejecting the toast.

From the foregoing, it is obvious that this invention provides a toaster comprising a novel timer mechanism in combination with closure means for the toaster slots of the toasting chamber in which the operator may make crisp or dry toast when desired with the closure members forA the toaster chamber opened by raising the cover in the embodiment of Figure 1 or by angular movement of the covers in the embodiment of Figures 5 and 6; and also, a toaster in which soft toast may be made when the closures for either of the embodiments of the invention are kept closed, the time control for the toaster timer mechanism of this invention being automatically changed by movement of the closure means for the toasting chamber from open to closed position depending upon whether dry or soft toast is desired. Furthermore, the operator can obtain toast of any degree of brownness by merely manipulating a manual knob varying the 12 current through a rheostat in series with a secondary heater to vary the time of the toasting period. Toast oi.' any degree of brownness either with the closures for the toasting chambers opened or closed may be obtained by varying the time of the toasting period by manipulating the rheostat controlling the ilow of current to the auxiliary heater of the timing mechanism. In addition, the toaster is always reliable in operation because the bimetallic element is always in a properly cooled condition at the initiation of any particular toasting operation whether the toaster is operated with the closures in position covering the vtoasting slots or the toasting slots are opened and movement of the timer to its terminating position imparts an impact or hammer blow to the latch so that the latch is always positively released to terminate the toasting operation.

It is also evident that this invention provides a toaster in which there is provided a reduced toasting period with the slots for the toaster chamber closed, the bread is toasted uniformly and the toast retains moisture better for soft toast with the slots closed. A toaster is also provided by this invention in which the ability to retain heat is obtained with the cover for the toasting chamber closed thus speeding up the time for toasting or with a toaster with covers as herein disclosed, the necessary power required for toasting may be cut down. The closures for the toaster chamber also keep the toast warmer longer when used with the feature of holding the toast down for a period of time before removing as herein disclosed. Covering the toaster chamber also serves to change the properties of the toast in the way of moisture content which is desired if soft toast is preferred and if dry toast is preferred as herein disclosed, the closure for the toasting chamber may be opened.

While there has been shown but two embodiments of the invention, it is to be understood that these embodiments are to be taken as illustrative only and not in a limiting sense. It will, of course, be understood that various changes may be made in the form, details, arrangement and proportions of the parts, without departing from the scope of the invention which may be generally stated comprises a device and/or toaster capable of carrying out the objects above set forth in the parts and combinations of parts disclosed and dened in the appended claims.

What is claimed is:

1. The combination in a toaster comprising a central toasting chamber, a toast carrier in said toasting chamber movable -from an upper bread receiving position to a lower toasting position and being spring-biased to the bread receiving position, of a closure for the toasting chamber, latching means for latching the toast carrier in its toasting position, timing means for releasing the toast carrier at the end of the toasting interval, said timing means comprising means for varying the period of the timing means depending upon whether the toaster is operated with the toasting chamber opened or closed, actuating means operatively connecting the closure and the aforesaid last mentioned means whereby the toasting interval is varied depending upon whether the closure for the toasting chamber is opened or closed, second latching means adapted for retaining the toast carrier in the toasting chamber when the closure for the toasting chamber is closed, and release means for the second latching means operatively connected to the aforesaid actuating means whereby the second latching means is adapted to be disengaged from the toast carrier with the closure for the toast chamber open and adapted to be unlatched from the toast carrier upon the closure for the toasting chamber being opened.

2. The combination in a toaster comprising a central toasting chamber, a toast carrier in said toasting chamber movable from an upper bread receiving position to a lower toasting position and being spring-biased to the bread receiving position, of a closure for the toasting chamber,

latchingr means for latching the toast carrier in its toasting position, timing means for releasing the toast carrier at the end of the toasting interval, said timing means comprising means for varying the period of the timing means depending upon whether the toaster is operated with the toasting chamber opened or closed, actuating means operatively connecting the closure and the aforesaid last mentioned mea-ns whereby the toasting interval is varied depending upon whether the closure for the toasting chamber is opened or closed, second latching means operatively connected to the toast carrier whereby the toast carrier is adapted to be latched downwardly with the closure member for the toasting chamber closed and adapted to unlatch the toast carrier when the cover for the toasting chamber is opened, said rst mentioned latching means adapted to latch the toast carrier in the toasting chamber as the toast carrier is moved downwardly therein and also adapted to release the toast carrier for upward movement at the end of a predetermined time interval controlled by the aforesaid timing means, the second latching means adapted to retain the toast `carrier within the toasting chamber upon release thereof by the rst mentioned latching means at the end of a predetermined time interval, and said second latching means adapted to be unlatched from the toast carrier upon the closure for the toasting chamber being opened.

3. A toaster comprising a casing divided into a central toasting chamber, front and rear mechanism compartments and a bottom compartment beneath said toasting chamber, a bread carrier in said toasting chamber movable from an upper bread receiving position to a lower toasting position and being spring-biased to a bread receiving position, manual means extending to said front mechanism compartment for moving said carrier to toasting position, a closure adapted to cover and open the toasting chamber, a iirst latch means in said front mechanism -compartment for holding said carrier in toasting position, a second latch means in said front mechanism compartment for holding said carrier within the toasting chamber upon release by the rst mentioned latch means at the end of a predetermined toasting interval, a timing mechanism located in said rear mechanism compartment, means located in said bottom chamber for transmitting movement from said timing mechanism to said rst mentioned latch means, actuating means operatively connected to the closure to move the same to open and closed positions, means located in said bottom chamber for transmitting movement of the aforesaid actuating mea-ns to said second latch means to move said second latch means to release position when said closure is moved to open position.

4. The combination in a toaster having a toasting chamber, a movable bread carrier mounted therein, of a closure for the toasting chamber movable to open and closed positions, a latch i'ory holding said bread carrier in toasting position,A

an impact member movable in one direction to release said latch, timing mechanism including a snap-acting mechanism for imparting an imthe toasting 'chamber uncovered, and means operated by said closure to unlatch the second latch means upon movement of the closure member from its closed to its opened position.

5. A toaster comprising a bread carrier movable.from an upper bread receiving position to a lower toasting position and spring-biased to upper bread receiving position, manualmeans for moving said carrier into toasting position,

`main heating means, a, switch actuated by movement of said carrier to toasting position for energizing said main heating means, a thermal timer for opening said switch at the end of each toasting interval, said timer including a, thermally responsive element and an auxiliary heater therefor, a closure for said toaster, and means operatively connected to the closure upon movement or" the closure from its opened or closed position adapted for moving said auxiliary heater toward and away from said thermally responsive element to vary the time of the toasting interval in the opened or closed positions of the closure of the toaster.

6. A toaster comprising a toasting chamber, a bread carrier movablefrom an upper bread receiving position to a toasting position within the toasting chamber, main heating means for heating the toasting chamber, a latch for holding said carrier in toasting position within the toasting chamber, closure means for the toasting chamber, a thermal timer for releasing said latch at the end of each toasting interval adapted to deenergize the heating means, said timer including a thermally responsive element, an auxiliary heater therefor and a reiiector for directing heat from said heater to said thermally responsive element, said heater and reflector being movable toward and away from said thermally responsive element, and said closure means operatively connected to said heater and reflector whereby upon actuation of the closure means for opening and closing the toasting chamber, the *heater and reflector are adapted to be moved toward and away from said thermally -responsive element so that when the toasting chamber is closed by the aforesaid closure means the heater and reflector are moved toward the thermally responsive element shortening the timing interval and when the closure means are actuated to uncover the toasting chamber the heater and reflector are movable away from the thermally responsive element for lengthening the timing interval.

7. A toaster comprising a bread carrier movable from an upper bread receiving position to a lower toasting position and spring-biased to the upper bread receivingr position, manual means for moving said carrier to toasting position, a toasting chamber for receiving the bread carrier, a closure for said toasting chamber movable to open or closed position. means for latching said carrier in toasting position, a thermal timer for releasing said latch at the end of each toasting interval, said timer including a thermally responsive element and a heatenjtherefor, said heater being movable toward and away from said thermally responsive element, means operatively connecting the closure means to the aforesaid heater for moving said heater toward the thermally responsive element as the closure is moved to closed position and away from the thermally responsive element as the closure is moved to open position, means for retaining the carrier in toasting position after release by said latching means, and means actuated by said closure for releasing said retaining means when said closure is in open position.

8. The combination in a-toaster comprising a toasting chamber, a bread carrier movable from a bread receiving position to a toasting position within the toasting chamber, heating means for the toasting chamber, closure means for the toasting chamber adapted to be movable into and out of closing position with respect to the toasting chamber, operator-operable means for moving the bread carrier into toasting position, a piurality of latching means adapted to latch the bread carrier in toasting position within the toasting chamber, timing means operably connected to one of said latch means whereby the bread carrier is adapted to be released from one position Y thereof within the toasting chamber and to be reengaged and latched in another position within the toasting chamber, and means operable upon movement of the closure means whereby said second mentioned latch means is unlatched permitting the bread carrier to move to its original bread receiving position.

9. In a toaster, an oven, means for heating said oven, a bread carriage movable between toasting and bread receiving positions in said oven, closure means for said oven movable between open and closed positions, means operated by movement of said carriage to toasting position for energizing said heating means, a iirst latch for retaining said carriage in toasting position with said heating means energized by said energizing means, a second latch positioned to retain said carriage in said oven above the position in which it operates said energizing means to energize said heating means, timing means for determining the duration of a toasting operation arranged to release said first latch to terminate a toasting operation and to deenergize said heating means, and means interconnecting said closure means andsaid second latch to move said second latch to carriage release position when said closure is in open position.

10. In a toaster, an oven, means for heating said oven, a bread carriage movable between toasting and bread receiving positions in said oven, closure means for said oven movable between open and closed positions, means operated by movement of said carriage to toasting position for energizing said heating means, a first latch for retaining said carriage in toasting position with said heating means energized by said energizing means, a second latch positioned to retain said carriage in said oven above the position in which it operates said energizing means to energize said heating means, timing means for determining the duration of a toasting operation arranged to release said rst latch to terminate a toasting operation and to deenergize said heatsecond latch to' carriage release position when said closure is in open position, and means for varying the operation oi said timing means independently of the position of said closure means to vary the duration of a toasting operation.

11. In a toaster, an oven, means for heating said oven, a bread carriage movable between toasting 'and bread receiving positions in said oven, closure means for said oven movable between open and closed positions, means operated by movement of said carriage to toasting position for energizing said heating means, a rst latch for retaining said carriage in toasting position with said heating means energized by said energizing means, a second latch positioned to retain said carriage in said oven above the position in which it operates said energizing means to energize said heating means, timing means for determining the duration of a toasting operation arranged to release said iirst latch to terminate a toasting operation and to deenergize said heating means, and means interconnecting said closure means and said second latch to move said second latch to carriage release position when said closure is in open position, and means for varying the operation of said timing means independently of the position of said closure means to vary the duration of a toasting operation, and means interconnected with said closure means for adjusting said timing means independently of the operation of said varying means to increase or decrease the duration of a toasting operation with said closure means in open or closed position, respectively.

12. A toaster comprising toasting oven substantially completely enclosed except for bread receiving slots, means for heating said oven, manually operated means for energizing said heating means to initiate a toasting operation, a closure mounted for movement from a first position in which said slots are open to a second position in which said slots are closed and said oven is substantially completely sealed from the air surrounding the toaster, timing means for deenergizing said heating means to terminate a toasting operation, said timing means including adjustable means for altering the timing period of thetiming means, and means interconnecting said closure and said adjustable means to set said adjustable means to shorten and lengthen the timing period of said timing means when said closure is moved to closed and open positions, respectively.

WILLIAM H. KI'I'I'O.

REFERENCES CITED The following references are of record in the le of this patent:

UNITED STATES PATENTS Number Name Date 1,809,112 Criner 1 June 9, 1931 2,165,204 Anderson July 11, 1939 2,194,859 Malmquist et al. Mar. 26, 1940 2,271,485 Koei Jan. 27, 1942 2,274,190 Cramer Feb. 24, 1942 2,302,117 Gomersall Nov. 17, 1942 2,339,183 Myers Jan. 11, 1944 2,344,842 Weeks Mar. 2l, 1944 2,388,641 Myers Nov. 6, 1945 2,412,727 Gomersall et al. Dec. 17, 1946 2,414,325 Newell Jan. 14, 1947 2,414,396 Sardeson Jan. 14, 1947 2,436,735 Walder et al. Feb. 24, 1948 

